Inverse Doomsday
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08-06-2024, 05:00 PM
(This post was last modified: 08-09-2024 01:41 PM by Thomas Klemm.)
Post: #1
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Inverse Doomsday
Recently I came across an old concert poster that took place on Friday, September 4th and wondered what year this was.
After a few tries with the DOW (day of week) function I figured it out pretty quickly. But then I wondered how to solve this problem without brute force. In this specific case, the closest Doomsday is September 5th (i.e. 9/5) which is a Saturday and therefore the anchor day of this year which is coded as 6. For the year's last two digits \(y\) in a certain century, its anchor day can be calculated using the following formula: \(d=\left(k + y+\left\lfloor {\frac {y}{4}}\right\rfloor \right){\bmod {7}}\) The constant \(k\) depends on the century: \(1900–1999\): \(k = 3\) \(2000–2099\): \(k = 2\) We therefore essentially want to invert the following function: \(m=\left(y+\left\lfloor {\frac {y}{4}}\right\rfloor \right){\bmod {7}}\) This function is periodic with a period of \(28 = 4 \times 7\). We will therefore limit ourselves to \(y \in \{0, 1, 2, \cdots, 27\}\) for the time being. The following table can be viewed as a torus. It indicates for each row which \(y\) are mapped to the same value \(m\): \( \begin{array}{|r:r|r|r|r|} \hline & 0 & 1 & 2 & 3 \\\hline 0 & 0 & 17 & 6 & 23 \\\hline 1 & 12 & 1 & 18 & 7 \\\hline 2 & 24 & 13 & 2 & 19 \\\hline 3 & 8 & 25 & 14 & 3 \\\hline 4 & 20 & 9 & 26 & 15 \\\hline 5 & 4 & 21 & 10 & 27 \\\hline 6 & 16 & 5 & 22 & 11 \\\hline \end{array} \) A row is skipped if the year is a leap year, which means it is divisible by \(4\). In my case (i.e. Friday, September 4th in the 20th century) we are looking for values \(y\) that map to \(3 = 6 - 3\). This means that we consider the following line: \( \begin{array}{|r:r|r|r|r|} \hline 3 & 8 & 25 & 14 & 3 \\\hline \end{array} \) Or then in correct order: \(\{3, 8, 14, 25\}\). Once the years are sorted in each row you may notice a common pattern: The differences cycle through the following values: \(\{5, 6, 11, 6\}\) However, they will start with different values. This program is for the HP-42S: Code: 00 { 59-Byte Prgm } Example 3 XEQ "DD↑-1" 3 R/S 8 R/S 14 R/S 25 R/S 31 \(\cdots\) 81 R/S 87 R/S 92 R/S 98 Can you come up with a simpler solution? PS: Due to further constraints, I am convinced that the concert took place in 1992. References |
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08-09-2024, 12:14 AM
Post: #2
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RE: Inverse Doomsday
This is a very clever implementation of the rotation of the \( f = [5,6,11,6] \) shifts and initial states.
In looking for a recursion, it occurs to me that \( a_n = a_{n-1} + (7* f_{n-2} \mod 12 ) \) , but it is less clear if it could be useful in reducing the program size, already very readable and comprehensible using the IND and GTO to set \(a_0 \) accordingly. Very elegant. 17bii | 32s | 32sii | 41c | 41cv | 41cx | 42s | 48g | 48g+ | 48gx | 50g | 30b |
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08-09-2024, 03:28 AM
Post: #3
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RE: Inverse Doomsday
Does the “k” work for the year 2000? No leap year that year.
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08-09-2024, 03:33 AM
Post: #4
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RE: Inverse Doomsday
Sorry about that…2000 was a 00 year that had a leap day!
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08-09-2024, 03:38 AM
(This post was last modified: 08-09-2024 03:39 AM by RPNerd.)
Post: #5
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RE: Inverse Doomsday
(08-09-2024 03:28 AM)lrdheat Wrote: Does the “k” work for the year 2000? No leap year that year. 2000 was a leap year. Years that are multiples of 4 but not multiples of 100 unless they are multiples of 400 are leap years. 1904 -> leap year 1900 -> not a leap year 2000 -> leap year Current daily drivers: HP-41CL, HP-15C, HP-16C |
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08-09-2024, 04:04 AM
Post: #6
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RE: Inverse Doomsday
…actually, most years ending with 00 are not leap years. Did this impact your calculations for this century, the year 2000 in particular?
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08-09-2024, 01:41 PM
Post: #7
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RE: Inverse Doomsday
(08-09-2024 03:28 AM)lrdheat Wrote: Does the “k” work for the year 2000? For the anchor day \(k\) of a century consult the table in Finding a year's anchor day: \( \begin{array}{|l|l|l|} \hline \textbf{Century} & \textbf{Anchor day} & \textbf{Index (day of week)} \\\hline 1600–1699 & \text{Tuesday} & 2 \\\hline 1700–1799 & \text{Sunday} & 0 \\\hline 1800–1899 & \text{Friday} & 5 \\\hline 1900–1999 & \text{Wednesday} & 3 \\\hline 2000–2099 & \text{Tuesday} & 2 \\\hline 2100–2199 & \text{Sunday} & 0 \\\hline 2200–2299 & \text{Friday} & 5 \\\hline \end{array} \) For the year \(2000\) use \(k=2\). Just to make it clear: the inversion here is only related to the year's last two digits \(y\) within a certain century. |
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08-09-2024, 02:01 PM
Post: #8
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RE: Inverse Doomsday
Here's another example: Today is 2024-08-09 which is a Friday.
In which years of this century was September 9th also a Friday? The anchor day for the year's last two digits \(y=24\) is \(2=\left(24 + 6\right) \mod 7\). 2 XEQ "DD↑-1" 2 13 19 24 Therefore in:
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08-09-2024, 03:34 PM
(This post was last modified: 08-09-2024 11:02 PM by Albert Chan.)
Post: #9
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RE: Inverse Doomsday
(08-09-2024 02:01 PM)Thomas Klemm Wrote: Here's another example: Today is 2024-08-09 which is a Friday. 365 MOD 7 ≡ 1. We just need to account for leap year. Code: Weekday August 9, 20?? Brute force is not that hard. (blanks are due to leap year) From first row, we have Years with August 9 = Friday |
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08-09-2024, 05:29 PM
Post: #10
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RE: Inverse Doomsday
(08-09-2024 03:34 PM)Albert Chan Wrote: Brute force is not that hard. (08-06-2024 05:00 PM)Thomas Klemm Wrote: But then I wondered how to solve this problem without brute force. You may have missed it, but this is the whole point of this post. Otherwise we could have just used the following program for the HP-42S to calculate \(\left(y+\left\lfloor {\frac {y}{4}}\right\rfloor \right){\bmod {7}}\): Code: 00 { 25-Byte Prgm } Make sure to use PROFF and SF 21. Example 2 R/S ST Z=2 R/S ST Z=13 R/S ST Z=19 R/S ST Z=24 |
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08-10-2024, 02:21 AM
Post: #11
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RE: Inverse Doomsday
Hi, Thomas Klemm
Sorry I missed that. Here is non brute force way 2024-08-09 is Friday: y + floor(y/4) ≡ 24 + 6 ≡ 30 ≡ 2 (mod 7) For other Fridays, we search other 2 digits y that satisfied above. Let y = 4k+z, where z = 0 to 3, and all modulo calculations are (mod 7) y + floor(y/4) ≡ (4k+z) + k ≡ 5k+z ≡ z-2k ≡ 2 --> z ≡ 2*(k+1) k ≡ 0 --> z ≡ 2 k ≡ 1 --> z ≡ 4, no solution k ≡ 2 --> z ≡ 6, no solution k ≡ 3 --> z ≡ 8 ≡ 1 k ≡ 4 --> z ≡ 3 k ≡ 5 --> z ≡ 5, no solution k ≡ 6 --> z ≡ 7 ≡ 0 y = 4k + z, we have 2 digits y full solutions: 02, 13, 19, 24 30, 41, 47, 52 58, 69, 75, 80 86, 97 |
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08-10-2024, 12:51 PM
Post: #12
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RE: Inverse Doomsday
We can also do smarter brute-force.
7 / (1 + 1/4) = 5.6. Instead of trying 1 year at a time, we can jump ahead lua> f = fn'y: (y+floor(y/4)) % 7' lua> f(24) 2 lua> f(24-5) 2 lua> f(19-5) 3 lua> f(19-6) 2 lua> f(13-5) 3 lua> f(13-6) 1 lua> f(7-5) 2 f(y) has period of 4*7 = 28 --> f(y)=value has 1/7 = 4/28 solutions f(y)=2 --> y ≡ {24, 24-5, 19-6, 13-11} ≡ {24, 19, 13, 02} (mod 28) |
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08-10-2024, 02:29 PM
Post: #13
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RE: Inverse Doomsday
(08-10-2024 12:51 PM)Albert Chan Wrote: f(y)=2 --> y ≡ {24, 24-5, 19-6, 13-11} ≡ {24, 19, 13, 02} (mod 28) Compare this to the table in my initial post: (08-06-2024 05:00 PM)Thomas Klemm Wrote: \( And then a bit later: (08-06-2024 05:00 PM)Thomas Klemm Wrote: Once the years are sorted in each row you may notice a common pattern: (08-10-2024 02:21 AM)Albert Chan Wrote: Sorry I missed that. Do you even read the posts before responding? |
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08-10-2024, 04:23 PM
Post: #14
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RE: Inverse Doomsday
Hi, Thomas Klemm
Yes, your post and mine are equivalent, thus same answer. But, intermediate calculations are very different. Your quote of mine, f(y)=2, is based on "smart" trial and error, not a lookup table. Yes, I read your posts. I just missed you really don't want brute force answer. To compensate for the error, I did provide non brute-force solution too (post #11) But, y with period of 28, brute force is probably simpler than the smart way. All we need is make a table with a jump for leap year, very little math involved. Start with 2024-09-04 is Wednesday (only 1 DOW calculation needed), we have: Code: Weekday September 4th, ???? If we continued on, pattern of "leap" blanks repeat itself --> y has period of 28 OP, Friday, September 4th, Year = 2020 - 28 = 1992 (based on your other constraints) |
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08-11-2024, 07:17 AM
(This post was last modified: 08-11-2024 07:17 AM by Martin Hepperle.)
Post: #15
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RE: Inverse Doomsday
(08-09-2024 02:01 PM)Thomas Klemm Wrote: Here's another example: Today is 2024-08-09 which is a Friday. The given month confused me: September --> August :-) (In my life, September 9th, 2019 was a Monday.) Martin |
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